Introduction
Human epidermal growth factor receptor 2 (HER2)-positive breast cancer (BC) accounts for 15–20% of all BC cases and is characterized by HER2 overexpression, aggressive tumor growth, and poor prognosis (Slamon et al.
1989). With the advent of targeted therapies, treatment outcomes for patients with HER2-positive BC have significantly improved, resulting in a 7-year disease-free survival rate of 93.3% (Romond et al.
2005; Tolaney et al.
2019). Despite standardized treatments, metastasis still occurs in 20–30% of patients with HER2-positive BC (Bear et al.
2015).
Advanced breast cancer (ABC), including both locally advanced breast cancer and metastatic breast cancer, represents a specific subgroup of breast cancer that is resistant to curative surgical interventions. Docetaxel combination with trastuzumab and pertuzumab used in CLEOPATRA trial defines the classic first-line treatment regimen for ABC (Giordano et al.
2022). However, the continuous emergence of drugs is gradually reshaping the treatment landscape, these varying combinations targeted agents offer diverse benefits. For instances, the PHILA study (Xu et al.
2022), the introduction marked a significant departure from the established dual-targeted treatment paradigm for advanced settings, offering new promise for first-line therapy. This study showcased the potential of a trastuzumab and tyrosine kinase inhibitors (TKIs) combination regimen, which demonstrated a numerical advantage over dual-targeted therapy in terms of progression-free survival (PFS). Given the late emergence of pertuzumab, few clinical trials have directly compared it head-to-head with dual-targeted therapy. Consequently, there is a growing need for comprehensive comparisons of all first-line regimens to inform and guide physicians in their choice of therapeutic strategies.
Triple-positive breast cancer (TPBC) characterized as being hormone receptor (HR)-positive and HER2-positive, encompasses various subtypes including Luminal type B and HER2 overexpression type. These subtypes exhibit distinct molecular functions, biological processes, signaling pathways, and clinical behaviors. Furthermore, they demonstrate varying sensitivities to treatment and diverse intrinsic biological features, ultimately reflecting different responses to therapeutic interventions (Zhao et al.
2019). It has thus been proposed that TPBC should be stratified into discrete clinical and genomic subgroups, each potentially warranting a unique treatment approach. Historically, clinical trials of endocrine therapy have predominantly excluded TPBC patients. Similarly, studies focusing on HER2-targeted agents have seldom reported outcomes specifically for the HR-positive subgroup. This has resulted in a paucity of data, leading to low levels of evidence and recommendations for TPBC patients. This area remains controversial and uncertain, underscoring the need for large-scale randomized controlled trials (RCTs).
To address the aforementioned challenges, we propose the application of network meta-analysis (NMA) as a potential solution. NMA is a valuable tool that synthesizes data from multiple clinical studies, thereby enabling indirect comparisons of treatment regimens that have not been compared head-to-head (Li et al.
2011).
Our analysis seeks to identify the optimal regimen for HER2-positive advanced BC, inclusive of the HR-positive subgroup, by delivering a comprehensive and objective assessment of first-line treatment options. Ultimately, our goal is to equip physicians with the evidence necessary to personalize treatment strategies, with the intent of enhancing patient outcomes and quality of life.
Material and methods
This manuscript follows the Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines (Page et al.
2021).
Eligibility and Exclusion criteria
We pre-defined the following inclusion and exclusion criteria: (i) phase II or III clinical studies of all HER2-positive ABC undergoing first-line treatment, (ii) RCTs with at least two treatment arms, one of which must contain targeted therapy, (iii) abstracts reported by San Antonio Breast Cancer Symposiums (SABCS), American Society of Clinical Oncology (ASCO), and European Society for Medical Oncology (ESMO), (iv) studies included at least one type of following data: PFS, overall survival (OS), objective response rate (ORR), adverse events of grade 3 or higher (≥ 3 AEs). Single-arm studies, enrollment of less than 10 in either treatment group, retrospective studies, exploratory studies, and clinical studies where first-line data could not be extracted separately, the experimental group was only replaced with a different drug of the same type, the data presented is not detailed enough to be extracted were excluded from our study.
We conducted a comprehensive and detailed search of electronic databases including PubMed, Embase, and Cochrane Library from inception to June 1, 2023. We also performed a search for abstracts published in ASCO, ESMO, and SABCS. References of clinical studies ultimately included in this study were also scanned to avoid omission of other relevant studies, especially for NMA.
Search strategy
The following search terms was used to retrieved three electronic databases individually: (metastasis OR metastases OR metastatic OR advanced OR recurrent OR stage IV OR unresectable) AND (breast OR mammary) AND (cancer OR carcinoma OR malignant OR neoplasm OR tumour) AND (HER-2 OR HER2 OR HER2/neu OR ERBB2 OR human epidermal growth factor receptor 2) AND (positive OR + OR overexpressing OR overexpressed OR overexpresses) AND (treatment OR therapy OR chemotherapy OR target therapy) AND (randomized controlled trial OR controlled clinical trial OR randomized controlled trial OR double-blind method OR single-blind method OR clinical trial OR clinical trials). The search process uses no filters or restrictions.
Selection process
Two investigators independently extracted whether these literature met the inclusion criteria. The most recent literature was adopted if multiple papers were generated from the same clinical trial. If doubts about the literature persist, discordance was determinated by a third reviewer. When the abstract does not make it clear that the article fits, the full text needs to be downloaded to evaluate it.
Data collection process
All data were derived from published data. We extracted data on some of the endpoints present in each study because not every trial contained all the endpoints we required. If the data were not explicitly published, the Engauge Digitizer software was used to calculate the data from the Kaplan–Meier plots.
Data items
The following data were extracted from the screened literatures: article name, title, the first author, year, treatment, HR status, trial type, tumor stage, the number of participants. The outcomes were analyzed with the following indicators: the primary endpoint PFS, the secondary endpoints OS, ORR, ≥ 3 AEs。
Study risk of bias assessment
We used Review Manager 5.4 software to assess bias in the involved studies in terms of 6 aspects and 3 levels. The final assessment visualization results were also presented using this software.
Effect measures
We used the extracted hazard ratio (HazR) values and 95% confidence interval (CI) for PFS and OS calculations. The odd ratio (OR) values and 95% CI were utilized to compare the ORR and ≥ 3 AEs.
Synthesis methods
After listing each treatment, regimens of the same type were grouped together in the same group, such as those containing two chemotherapeutic agents were grouped in the combination chemotherapy group, pyrotinib or lapatinib were grouped in the TKIs group, and any of the trastuzumab biosimilars were grouped in the biosimilars group. Clinical trials were categorized in the TPBC group for further analysis if the following conditions were met: the enrolled population was HR-positive only; the regimen included endocrine therapy; and data could be extracted from the HR-positive subgroup for analysis.
For PFS and OS, the data were performed using R software. For ORR and ≥ 3 AEs, the data were performed using STATA software. Heterogeneity was assessed using I2. We used a random effects model to calculate the results. Surface under the cumulative ranking curve (SUCRA) values ranged from 0 to 100%, higher scores indicate that this regimen is preferred. Finally, we set the maximum values for efficacy (PFS) and safety (≥ 3 AEs) to 50, respectively, and combined the two scores to assess each regimen. P < 0.05 indicates statistical significance.
Ethics consideration
This study analyzed published data so ethical consent was not required and all data were derived from published literature. Patients remained anonymous.
Discussion
Patients with advanced breast cancer often deviate from rigid guidelines and necessitate multidisciplinary treatment teams discussions to incorporate additional factors such as the patient's underlying conditions, economic situation, tolerance to previous treatments, accessibility of medication, patient and family preferences, current guidelines and consensus. Patients have the opportunity to actively engage in their treatment process by gaining a comprehensive understanding of their medical condition, articulating queries and concerns, and expressing their individual preferences for available treatment options. Our research provides rankings for various first-line chemotherapy regimens, which can guide physicians in quickly selecting the most effective and safest option when multiple chemotherapy regimens are available for selection.
There is no doubt that dual-targeted therapy consisting of trastuzumab and pertuzumab is the first choice for first-line treatment of ABC. But with the development of anti-HER2 drugs, this dual-targeted combination may be challenged as never before. Our study showed that TKIs combined with trastuzumab was superior to pertuzumab combined with trastuzumab in some aspects.
Tyrosine kinase inhibitors (TKIs) have demonstrated certain benefits in both neoadjuvant settings and ≥ 2 line treatment in ABC, as evidenced by multiple studies (Wu et al.
2022; Xu et al.
2021a,
b). These agents are progressively being considered for first-line treatment as supporting evidence accumulates. In our investigation, the combination of trastuzumab with TKIs yielded the highest PFS SUCRA score (Fig.
5A), significantly surpassing that of the trastuzumab-pertuzumab combination. Prior research has indicated limited effectiveness of TKIs combined with monochemotherapy (Guan et al.
2013; Gelmon et al.
2015), however, the integration of trastuzumab with TKIs appears to produce favorable outcomes. The advantages of TKIs over pertuzumab are in three aspects: 1. TKIs covalently interact with the ATP-binding sites in the intracellular kinase domains of HER1, HER2, and HER4, thus impeding downstream signaling (Li et al.
2017). 2. TKIs can penetrate the central nervous system and have unexpected efficacy in patients with BC brain metastases (Morikawa et al.
2015). In the brain metastasis subgroup of the HER2CLIMB study, the 1-year PFS was much higher in the tucatinib group than in the control group (24.9% vs 0%, HazR 0.48; 95%CI 0.34–0.69;
p < 0.001)(Murthy et al.
2020). 3. TKIs in combination with trastuzumab can comprehensively block both intracellular and extracellular domains and significantly improve anti-HER2 treatment efficacy, which has been demonstrated in the treatment of early-stage BC (Wu et al.
2022; Llombart-Cussac et al.
2017).
Our analysis also revealed that the combination of trastuzumab and TKIs had the highest SUCRA value in terms of ORR, which is consistent with the data from the PHILA study that reported an ORR of 88.2% (Xu et al.
2022). This exceeded the ORR of 80.3% reported in the CLEOPATRA study (Swain et al.
2020), indicating that this treatment regimen has a certain efficacy in promoting tumor shrinkage. ≥ 3 AEs are generally intolerable for patients, necessitating a careful balance between treatment efficacy and safety. A synthesized analysis of PFS and ≥ 3 AEs serves as an optimal guide for clinicians in selecting a treatment regimen. Trastuzumab combined with TKIs, despite ranking second of PFS (Fig.
5A), exhibited a substantial rate of ≥ 3 AEs (Fig.
5E), that's why the overall ranking is not high (Fig.
6). Diarrhea identified as a notable complication. The PANDORA study (Wang and Huang
2022) demonstrated that the administration of granulocyte colony-stimulating factor and loperamide, following a protocol modification, effectively mitigated complications, enhancing patients’ treatment tolerance. Consequently, TKIs may represent a promising future therapeutic option.
Our study suggests that T-DM1 has a moderate PFS (Fig.
5A), but he has a low complication rate (Fig.
5E), so after combining PFS and ≥ 3 AEs scores, it is second only to the current standard monochemotherapy combination of dual-targeted therapy in terms of recommendation (Fig.
6). T-DM1, representing the inaugural antibody–drug conjugate (ADC) combination of monochemotherapy combination with targeted therapy, has been investigated as a first-line treatment option for advanced breast cancer (ABC). The MARIANNE trial (Perez et al.
2019) and the TDM4450g study (Perez et al.
2014) suggest that first-line treatment with T-DM1 yields comparable results to monochemotherapy in combination with trastuzumab in terms of PFS, so it a viable alternative for patients who are unable to tolerate dual-targeted regimens. It is important to highlight that trastuzumab deruxtecan (T-Dxd), recognized for its substantial effectiveness in the treatment of advanced disease beyond the second line (Hurvitz et al.
2023), is a coupling of trastuzumab and deruxtecan and has a higher drug-to-antibody ratio than T-DM1 (8:3.5) (Doi et al.
2017). The bystander effect is another of its features, and chemotherapeutic drugs released after being endocytosed can diffuse to neighboring cells, helping to overcome HER2 heterogeneity. Currently under investigation as a first-line treatment option, and the oncology community eagerly awaits the release of these data (Tolaney et al.
2022).
TPBC represents a distinct clinical entity. While HER2 positivity is generally an independent predictor of poor prognosis, high HR expression is associated with a better outcome (Parise and Caggiano
2016; Kay et al.
2021). Thus, patients with HR-positive/HER2-positive status tend to have a better prognosis than their HR-negative/HER2-positive counterparts but fare worse than HR-positive/HER2-negative patients. Notably, crosstalk between the HR and HER2 pathways complicates treatment, as monochemotherapy targeting either pathway alone can lead to suboptimal results and potential drug resistance. For example, the CLEOPATRA study (Swain et al.
2020) showed reduced benefits from dual-targeted chemotherapy in HR-positive patients compared to HR-negative patients. The BIG 1–98 study (Rasmussen et al.
2008) reported poorer outcomes for patients with HER2-positive BC treated with endocrine therapy alone. Our analysis indicates that combining dual-targeted therapy with endocrine therapy yields the highest SUCRA of PFS for TPBC patients, outperforming both monochemotherapy plus dual-targeted and monochemotherapy plus single-targeted and endocrine therapy (Fig.
5B). Although this recommendation is based on data from the phase II PERTAIN trial (Rimawi et al.
2018) alone, it is supported by findings from the MonarcHER (André et al.
2022) and SYSUCC-002 (Hua et al.
2022) studies, suggesting that this combined approach represents a promising and effective strategy for managing TPBC.
For patients with cardiac comorbidity or risk factors for heart disease, cardiac function testing is required to exclude contraindications for trastuzumab and anthracycline drugs. Our research has found that T-DM1, which has no significant cardiac toxicity, is a good alternative for such patients (Fig.
6).
While improved PFS is a notable outcome, it is not a definitive marker of treatment effectiveness unless it translates into a benefit in OS (Adunlin et al.
2015). Unfortunately, only the regimen of monochemotherapy plus dual-targeted therapy is currently benefiting on the OS (Supplemental File D3). We acknowledge that the OS data in many of these studies remain immature due to the lengthy process of OS data collection. As a result, only OS results from a small number of studies were included in our current analysis. We anticipate future research that comprehensively evaluates treatment options from the perspective of OS.
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